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Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/jedi/inference/arguments.py

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import re
from parso.python import tree
from jedi._compatibility import zip_longest
from jedi import debug
from jedi.inference.utils import PushBackIterator
from jedi.inference import analysis
from jedi.inference.lazy_value import LazyKnownValue, LazyKnownValues, \
LazyTreeValue, get_merged_lazy_value
from jedi.inference.names import ParamName, TreeNameDefinition, AnonymousParamName
from jedi.inference.base_value import NO_VALUES, ValueSet, ContextualizedNode
from jedi.inference.value import iterable
from jedi.inference.cache import inference_state_as_method_param_cache
def try_iter_content(types, depth=0):
"""Helper method for static analysis."""
if depth > 10:
# It's possible that a loop has references on itself (especially with
# CompiledValue). Therefore don't loop infinitely.
return
for typ in types:
try:
f = typ.py__iter__
except AttributeError:
pass
else:
for lazy_value in f():
try_iter_content(lazy_value.infer(), depth + 1)
class ParamIssue(Exception):
pass
def repack_with_argument_clinic(clinic_string):
"""
Transforms a function or method with arguments to the signature that is
given as an argument clinic notation.
Argument clinic is part of CPython and used for all the functions that are
implemented in C (Python 3.7):
str.split.__text_signature__
# Results in: '($self, /, sep=None, maxsplit=-1)'
"""
def decorator(func):
def wrapper(value, arguments):
try:
args = tuple(iterate_argument_clinic(
value.inference_state,
arguments,
clinic_string,
))
except ParamIssue:
return NO_VALUES
else:
return func(value, *args)
return wrapper
return decorator
def iterate_argument_clinic(inference_state, arguments, clinic_string):
"""Uses a list with argument clinic information (see PEP 436)."""
clinic_args = list(_parse_argument_clinic(clinic_string))
iterator = PushBackIterator(arguments.unpack())
for i, (name, optional, allow_kwargs, stars) in enumerate(clinic_args):
if stars == 1:
lazy_values = []
for key, argument in iterator:
if key is not None:
iterator.push_back((key, argument))
break
lazy_values.append(argument)
yield ValueSet([iterable.FakeTuple(inference_state, lazy_values)])
lazy_values
continue
elif stars == 2:
raise NotImplementedError()
key, argument = next(iterator, (None, None))
if key is not None:
debug.warning('Keyword arguments in argument clinic are currently not supported.')
raise ParamIssue
if argument is None and not optional:
debug.warning('TypeError: %s expected at least %s arguments, got %s',
name, len(clinic_args), i)
raise ParamIssue
value_set = NO_VALUES if argument is None else argument.infer()
if not value_set and not optional:
# For the stdlib we always want values. If we don't get them,
# that's ok, maybe something is too hard to resolve, however,
# we will not proceed with the type inference of that function.
debug.warning('argument_clinic "%s" not resolvable.', name)
raise ParamIssue
yield value_set
def _parse_argument_clinic(string):
allow_kwargs = False
optional = False
while string:
# Optional arguments have to begin with a bracket. And should always be
# at the end of the arguments. This is therefore not a proper argument
# clinic implementation. `range()` for exmple allows an optional start
# value at the beginning.
match = re.match(r'(?:(?:(\[),? ?|, ?|)(\**\w+)|, ?/)\]*', string)
string = string[len(match.group(0)):]
if not match.group(2): # A slash -> allow named arguments
allow_kwargs = True
continue
optional = optional or bool(match.group(1))
word = match.group(2)
stars = word.count('*')
word = word[stars:]
yield (word, optional, allow_kwargs, stars)
if stars:
allow_kwargs = True
class _AbstractArgumentsMixin(object):
def unpack(self, funcdef=None):
raise NotImplementedError
def get_calling_nodes(self):
return []
class AbstractArguments(_AbstractArgumentsMixin):
context = None
argument_node = None
trailer = None
def unpack_arglist(arglist):
if arglist is None:
return
# Allow testlist here as well for Python2's class inheritance
# definitions.
if not (arglist.type in ('arglist', 'testlist') or (
# in python 3.5 **arg is an argument, not arglist
arglist.type == 'argument' and arglist.children[0] in ('*', '**'))):
yield 0, arglist
return
iterator = iter(arglist.children)
for child in iterator:
if child == ',':
continue
elif child in ('*', '**'):
c = next(iterator, None)
assert c is not None
yield len(child.value), c
elif child.type == 'argument' and \
child.children[0] in ('*', '**'):
assert len(child.children) == 2
yield len(child.children[0].value), child.children[1]
else:
yield 0, child
class TreeArguments(AbstractArguments):
def __init__(self, inference_state, context, argument_node, trailer=None):
"""
:param argument_node: May be an argument_node or a list of nodes.
"""
self.argument_node = argument_node
self.context = context
self._inference_state = inference_state
self.trailer = trailer # Can be None, e.g. in a class definition.
@classmethod
@inference_state_as_method_param_cache()
def create_cached(cls, *args, **kwargs):
return cls(*args, **kwargs)
def unpack(self, funcdef=None):
named_args = []
for star_count, el in unpack_arglist(self.argument_node):
if star_count == 1:
arrays = self.context.infer_node(el)
iterators = [_iterate_star_args(self.context, a, el, funcdef)
for a in arrays]
for values in list(zip_longest(*iterators)):
# TODO zip_longest yields None, that means this would raise
# an exception?
yield None, get_merged_lazy_value(
[v for v in values if v is not None]
)
elif star_count == 2:
arrays = self.context.infer_node(el)
for dct in arrays:
for key, values in _star_star_dict(self.context, dct, el, funcdef):
yield key, values
else:
if el.type == 'argument':
c = el.children
if len(c) == 3: # Keyword argument.
named_args.append((c[0].value, LazyTreeValue(self.context, c[2]),))
else: # Generator comprehension.
# Include the brackets with the parent.
sync_comp_for = el.children[1]
if sync_comp_for.type == 'comp_for':
sync_comp_for = sync_comp_for.children[1]
comp = iterable.GeneratorComprehension(
self._inference_state,
defining_context=self.context,
sync_comp_for_node=sync_comp_for,
entry_node=el.children[0],
)
yield None, LazyKnownValue(comp)
else:
yield None, LazyTreeValue(self.context, el)
# Reordering arguments is necessary, because star args sometimes appear
# after named argument, but in the actual order it's prepended.
for named_arg in named_args:
yield named_arg
def _as_tree_tuple_objects(self):
for star_count, argument in unpack_arglist(self.argument_node):
default = None
if argument.type == 'argument':
if len(argument.children) == 3: # Keyword argument.
argument, default = argument.children[::2]
yield argument, default, star_count
def iter_calling_names_with_star(self):
for name, default, star_count in self._as_tree_tuple_objects():
# TODO this function is a bit strange. probably refactor?
if not star_count or not isinstance(name, tree.Name):
continue
yield TreeNameDefinition(self.context, name)
def __repr__(self):
return '<%s: %s>' % (self.__class__.__name__, self.argument_node)
def get_calling_nodes(self):
old_arguments_list = []
arguments = self
while arguments not in old_arguments_list:
if not isinstance(arguments, TreeArguments):
break
old_arguments_list.append(arguments)
for calling_name in reversed(list(arguments.iter_calling_names_with_star())):
names = calling_name.goto()
if len(names) != 1:
break
if isinstance(names[0], AnonymousParamName):
# Dynamic parameters should not have calling nodes, because
# they are dynamic and extremely random.
return []
if not isinstance(names[0], ParamName):
break
executed_param_name = names[0].get_executed_param_name()
arguments = executed_param_name.arguments
break
if arguments.argument_node is not None:
return [ContextualizedNode(arguments.context, arguments.argument_node)]
if arguments.trailer is not None:
return [ContextualizedNode(arguments.context, arguments.trailer)]
return []
class ValuesArguments(AbstractArguments):
def __init__(self, values_list):
self._values_list = values_list
def unpack(self, funcdef=None):
for values in self._values_list:
yield None, LazyKnownValues(values)
def __repr__(self):
return '<%s: %s>' % (self.__class__.__name__, self._values_list)
class TreeArgumentsWrapper(_AbstractArgumentsMixin):
def __init__(self, arguments):
self._wrapped_arguments = arguments
@property
def context(self):
return self._wrapped_arguments.context
@property
def argument_node(self):
return self._wrapped_arguments.argument_node
@property
def trailer(self):
return self._wrapped_arguments.trailer
def unpack(self, func=None):
raise NotImplementedError
def get_calling_nodes(self):
return self._wrapped_arguments.get_calling_nodes()
def __repr__(self):
return '<%s: %s>' % (self.__class__.__name__, self._wrapped_arguments)
def _iterate_star_args(context, array, input_node, funcdef=None):
if not array.py__getattribute__('__iter__'):
if funcdef is not None:
# TODO this funcdef should not be needed.
m = "TypeError: %s() argument after * must be a sequence, not %s" \
% (funcdef.name.value, array)
analysis.add(context, 'type-error-star', input_node, message=m)
try:
iter_ = array.py__iter__
except AttributeError:
pass
else:
for lazy_value in iter_():
yield lazy_value
def _star_star_dict(context, array, input_node, funcdef):
from jedi.inference.value.instance import CompiledInstance
if isinstance(array, CompiledInstance) and array.name.string_name == 'dict':
# For now ignore this case. In the future add proper iterators and just
# make one call without crazy isinstance checks.
return {}
elif isinstance(array, iterable.Sequence) and array.array_type == 'dict':
return array.exact_key_items()
else:
if funcdef is not None:
m = "TypeError: %s argument after ** must be a mapping, not %s" \
% (funcdef.name.value, array)
analysis.add(context, 'type-error-star-star', input_node, message=m)
return {}
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